Page 1 G258A G335A G380A G400A LMV 2x/3x Microprocessor controlled Gas burners MANUAL OF INSTALLATION - USE - MAINTENANCE BURNERS - BRUCIATORI - BRULERS - BRENNER - QUEMADORES - ГОРЕЛКИ M039513CA 0.0 11/2021...
Page 2: General Introduction
DANGERS, WARNINGS AND NOTES OF CAUTION THIS MANUAL IS SUPPLIED AS AN INTEGRAL AND ESSENTIAL PART OF THE PRODUCT AND MUST BE DELIVERED TO THE USER. INFORMATION INCLUDED IN THIS SECTION ARE DEDICATED BOTH TO THE USER AND TO PERSONNEL FOLLOWING PRODUCT INSTALLATION AND MAINTENANCE.
Page 3: Directives And Standards
3b) FIRING WITH GAS, LIGHT OIL OR OTHER FUELS DIRECTIVES AND STANDARDS Gas burners GENERAL European directives  The burner shall be installed by qualified personnel and in compliance -Regulation 2016/426/UE (appliances burning gaseous fuels) with regulations and provisions in force; wrong installation can cause -2014/35/UE (Low Tension Directive) injuries to people and animals, or damage to property, for which the -2014/30/UE (Electromagnetic compatibility Directive)
Page 4: Symbols Used
Burner data plate Type Gas - Light oil burners For the following information, please refer to Model Year European Directives the data plate: S.Number -Regulation 2016/426/UE (appliances burning gaseous fuels) burner type and burner model: must be Output  Oil Flow -2014/35/UE (Low Tension Directive) reported in any communication with the Fuel...
Page 5 PART I: SPECIFICATIONS PART I: SPECIFICATIONS Note: the figure is indicative only Control panel with startup switch Combustion head adjusting ring nut Electrical panel Cover Blast tube + Combustion head Flange Actuator Silencer Gas train 10 Fan motor 11 Air pressure switch Gas operation: From the supply line the gas fuel passes through the gas train (filter, safety valves, gas pressure regulator and butterfly valve).
Page 6 Burners are identified by burner type and model. Burner model identification is described as follows. Type G380A Model PR. SR. 1 BURNER TYPE G258A, G335A, G380A, G400A B - Biogas, 2 FUEL M - Natural gas L - LPG C - Town gas 3 OPERATION (Available versions)
Page 7: Technical Specificationstechnical Specifications
PART I: SPECIFICATIONS Technical SpecificationsTechnical Specifications BURNER TYPE G258A M-.. G335A M-.. G380A M-.. G400A M-.. 165 - 2580 280 - 3350 295 - 3800 580 - 4000 Output min. - max. kW Fuel Natural gas (see next paragraph) Category...
Page 8 (BS - BL ) (AS - AL ) BS = standard blast tube BL = long blast tube DN = gas valves size B*: SPECIAL blast tube lengths must be agreed with Cib Unigas TIPO (AS) (BS) 1116 725 1362 971...
Page 9: Performance Curves
This value must be lower or equal to the pgas value, calcula- ted before. Power kW Potenza / Output (kW) Performance Curves G258A M- G335A M- G380A M- G400A M- To get the input in kcal/h, multiply value in kW by 860.
Page 10 During the first ignition, the combustion head is set in order to find a compromise between the burner output and the generator specifications, that is why the minimum output may be different from the Performance curve minimum Pressure in the Network / gas flow rate curves Performance Curves G258A M- G335A M- G380A M- G400A M- ATTENTION: the gas rate value is quoted on the x-axis, the related network pressure is quoted on the y-axis (pressure value in the combustion chamber is not included).
Page 11 PART I: SPECIFICATIONS Combustion head gas pressure curves Combustion head gas pressure depends on gas flow and combustion chamber backpressure. When backpressure is subtracted, i depends only on gas flow, provided combustion is properly adjusted, flue gases residual O2 percentage complies with “Recommended combustion values”...
Page 12 PART I: SPECIFICATIONS Pressure - rate in combustion head curves (natural gas) Curves are referred to pressure = 0 mbar in the combustion chamber! G258A M- G335A M- G380A M- G400A M-...
Page 13: Transport And Storage
PART II: INSTALLATION PART II: INSTALLATION MOUNTING AND CONNECTING THE BURNER Transport and storage ATTENTION! The equipment must be installed in compliance with the regulations in force, following the manufac- turer’s instructions, by qualified personnel. All handling operations must be carried out with appropriate resources and qualified personnel ATTENTION: Use intact and correctly dimensioned hoisting equipment, conforms to the local regulations and health and safety regulations.
Page 14 PART II: INSTALLATION Fitting the burner to the boiler To install the burner into the boiler, proceed as follows: make a hole on the closing door of the combustion chamber as described on paragraph “Overall dimensions”) place the burner to the boiler: lift it up and handle it according to the procedure described on paragraph “Handling the burner”; place the 4 stud bolts (5) on boiler’s door, according to the burner drilling template described on paragraph “Overall dimensions”;...
Page 15 PART II: INSTALLATION GAS TRAIN CONNECTIONS The diagrams show the components of the gas train included in the delivery and which must be fitted by the installer.The diagrams are in compliance with the current laws. Note: the figure is indicative only ”direction”...
Page 16 PART II: INSTALLATION GAS TRAIN CONNECTIONS The diagrams show the components of the gas trai included in the delivery and which must be fitted by the installer.The diagrams are in compliance with the current laws. Gas train with valves group VGD and MBE with built-in gas pressure governor + gas leakage pressure switch (PGCP) by others supplied by burner constructor gas inlet...
Page 17: Assembling The Gas Train
PART II: INSTALLATION MultiBloc MB-DLE - Assembling the gas train Note: the figure is indicative only ”direction” arrows for gas supply network installation Keys Gasket Gas filter Gas valves group Bellows unit Manual valve MULTIBLOC DUNGS Mounting Mount flange onto tube lines: use appropriate sealing agent MB-DLE 405..412 Insert MB-DLE: note position of O rings MB-DLE 415..420...
Page 18 PART II: INSTALLATION MultiBloc MBE ALLA V. FARFALLA Example of gas train MBE 501939 GAS BRUCIATORE ø185 VD-R VD-V VD-R VD-V Gas filter PGMAX PGMAX PGMI PGMIN PS pressure sensor PGCP PGCP ATTENTION: once the gas train is mounted according, the gas proving test mus be performed, according to the procedure set by the laws in force.
Page 19 PART II: INSTALLATION Mounting VD-R & PS-... ActuatorVD-V ActuatorVD-R M12 x 5 Pin The actuator VD-V does not need any adjustment (funzione ON-OFF)  The actuator VD-R It must be combined with the PS sensor (include  regolatore di pressione) VD-R + PS 1.
Page 20 PART II: INSTALLATION Siemens VGD20.. e VGD40.. Siemens VGD20.. and VGD40.. gas valves - with SKP2.. (pressure governor) - Connect the reference gas pipe (TP in figure; 8mm-external size pipe supplied loose), to the gas pressure nipples placed on the gas pipe, downstream the gas valves: gas pressure must be measured at a distance that must be at least 5 times the pipe size.
Page 21: Overall Dimensions (Mm)
PART II: INSTALLATION Siemens VGD SKPx5 (Auxiliary-optional micro switch) Actuator connection Valve drive End of stroke Plug connection Plug connection (only with SKPxx.xx1xx) A Valve closed Gas valveGas Filter (if provided) The gas filters remove the dust particles that are present in the gas, and prevent the elements at risk (e.g.: burner valves, counters and regulators) from becoming rapidly blocked.
Page 22 PART II: INSTALLATION BURNERS WITH INVERTER VARIANT (if provided) Type Model XXXXX M-. MD. xx. xx. x. x. xxx. EI. XXXXX M-. MD. xx. xx. x. x. xxx. EG. LMV5 DANFOSS XXXXX MG. MD. xx. xx. x. x. xxx. EK. XXXXX MG.
Page 23 PART II: INSTALLATION BURNERS WITH INVERTER VARIANT (if provided) KOSTAL Tipo Modello XXXXX M-. MD. xx. xx. x. x. xxx. EI. XXXXX M-. MD. xx. xx. x. x. xxx. EG. LMV5 XXXXX MG. MD. xx. xx. x. x. xxx. EK. XXXXX MG.
Page 24 PART II: INSTALLATION Integrated proving system (burners equipped with LME7x, LMV, LDU) This paragraph describes the integrated proving system operation sequence: At the beginning both the valves (EV1 and EV2) must be closed.  Test space evacuating: EV2 valve (burner side) opens and keep this position for a preset ...
Page 25 PART II: INSTALLATION WARNING: (only for double stage and progressive burners) The burner is provided with an electrical bridge between terminals 6 and 7; when connecting the high/low flame thermostat, remove this bridge before connecting the thermostat. Any cable connection or hook-up to the grid must be carried out by qualified, informed and trained personnel, directly coordinated and authorized by Technical Service.
Page 26 PART II: INSTALLATION Siemens CD attached to the burner C - Capacitor (22 nF , 250 V) LMV2/3... - LMV5... LME / LMV - Siemens control box R - Resistor (1 MΩ) M: Terminal 2 (LGB, LME), Terminal X3-04-4 ( LMV2x, LMV3x, LMV5, LME7x) RC466890660 - RC Siemens filter Configuration with separate electrical panel (optional)
Page 27: Limitations Of Use
PART III: OPERATION PART III: OPERATION LIMITATIONS OF USE THE BURNER IS AN APPLIANCE DESIGNED AND CONSTRUCTED TO OPERATE ONLY AFTER BEING CORRECTLY CONNEC- TED TO A HEAT GENERATOR (E.G. BOILER, HOT AIR GENERATOR, FURNACE, ETC.), ANY OTHER USE IS TO BE CONSIDE- RED IMPROPER AND THEREFORE DANGEROUS.
Page 28: Gas Operation
PART III: OPERATION Fig. 4 - Burner front panel Keys Lock-out LED Hi-flame operation LED Lo-flame operation LED “Ignition transformer operation” LED “Fan motor overload tripped” LED “EV2 opening” LED “EV1 opening” LED “Gas pressure switch signal ” LED Main switch Operation selector MAN - AUTO (operation in manual or automatic mode): MIN = operation with minimum output MAX = operation at the maximum output...
Page 29: User Interface
PART III: OPERATION AIR FLOW AND FUEL ADJUSTMENT WARNING! During commissioning operations, do not let the burner operate with insufficient air flow (danger of formation of carbon monoxide); if this should happen, make the fuel decrease slowly until the normal combustion values are achieved.
Page 30: Setting Menu
PART III: OPERATION Key F + A While pressing the two keys contemporarly, the code message will appear: by entering the proper password it is possible to access the Service mode. Info and Enter keys Used for Info and Service menues Used as Enter key in the setting modes Used as Reset key in the burner operation mode Used to enter a lower level menu...
Page 31 PART III: OPERATION User level (info): no password needed  Service level (Service)  Manifacturer level (OEM)  PHASES LIST During operation, the following program phases are shown. The meaning for each phase is quoted in the table below Fase / Funzione Function Ph00...
Page 32: Info Level
PART III: OPERATION The burner and consequently the LMV2x.. are factory set; the air and fuel curves as set as well. Info level To enter the Info level, proceed as follows: in any menu position, press keys + and - at the same time, then the program will start again: the display will show OFF. until the display will show InFo, Press the enter (InFo) key then il will show the first code (167) flashing, on the right side it will show the data entered.
Page 33: Parameter Description
PART III: OPERATION Parameter Description Cubic meters of fule (resettable) Operating hours (resettable) Device operating hours Burners start-ups (resettable) Total number of start-ups Burner number (i.e. serial number) Software version Software date Device serial number Customer code Version Free Example: choose parameter 102 to show the date the display shows parameter 102 flashing on the left and characters ._._ on the right.
Page 34: Service Level
PART III: OPERATION Diagnostic code (in the example “diagnostic code:3”). Record the codes and find out the fault in the Error table. To perform the reset, press InFo for one second: The unit displays an event which does not lead to shutdown. The display shows current error code c: alternating with diagnostic code d: Press InFo to return to the display of phases.
Page 35 PART III: OPERATION .the first parameter will be “954”: the percentage of flame is shown on the right. By pressinf + or - it is possible to scroll up/down the parameter list. Once the last parameter is accessed (143) by pressing + , the End message will blink. PressPress InFo for more than three seconds or for more than three seconds orto return to the normal display.
Page 36 PART III: OPERATION Adjusting the gas valves group Multibloc MB-DLE VS T(VR) The multibloc unit is a compact unit consisting of two valves, gas pressure switch, pres- sure stabilizer and gas filter. The valve is adjusted by means of the RP regulator after slackening the locking screw VB by a number of turns.
Page 37: Pressure Taps
PART III: OPERATION MultiBloc MBE Regulation VD-R whith PS Setting scale is „Not“ linear! Various sensors available. Output pressure according to sensor‘s measuring range. Increasing pressure Adjust the outlet pressure to the value specified by the burner or equipment manufacturer! Decreasing pressure While making outlet pressure adjustments, do not exceed a value that creates a hazardous condition to the...
Page 38 PART III: OPERATION Calibration air and gas pressure switches The air pressure switch locks the control box if the air pressure is not the one requested. If it happens, unlock the burner by means of the control box unlock pushbutton, placed on the bur- ner control panel.
Page 39 PART III: OPERATION Attention! if it is necessary to change the head position, repeat the air and fuel adjustments described above. Only if necessary, change the combusiton head position: to let the burner operate at a lower output, loose the VB screw and move pro- gressively back the combustion head towards the MIN position, by turning clockwise the VRT ring nut.
Page 40: Routine Maintenance
PART IV: MAINTENANCE PART IV: MAINTENANCE At least once a year carry out the maintenance operations listed below. In the case of seasonal servicing, it is recommended to carry out the maintenance at the end of each heating season; in the case of continuous operation the maintenance is carried out every 6 months.
Page 41 PART IV: MAINTENANCE Adjusting the gas valves group and removing the filter MB-DLE MB-DLE 415 - 420 B01 405..412 0 CoperFKLR GHO ¿OWro 1,3,4,6 TDSSR D YLWH * 2 AWWDFFR PLVXrDWRre 5 TDSSR D YLWH 0 0, 1, 2, 3, 4, 5 7DSSR D YLWH * Prese di pressione Prese di pressione...
Page 42 PART IV: MAINTENANCE Removing the combustion head Remove the cover C.  Remove the electrodes cables;  Unscrew the 3 screws V which hold in position the gas manifold G.  Some models are provided with the T baffle. Move the gas manifold ahead and remove the baffle. ...
Page 43 PART IV: MAINTENANCE Replacing the ignition electrodes ATTENTION: avoid the ignition and detection electrodes to contact metallic parts (blast tube, head, etc.), otherwise the boi- ler’s operation would be compromised. Check the electrodes position after any intervention on the combustion head. electrodes - type A To replace the ignition electrodes, proceed as follows:...
Page 44: Seasonal Stop
PART IV: MAINTENANCE Checking the detection current with electrode (natural gas) To check the detection signal follow the scheme in the picture below. If the signal is less than the value indicated, check the position of the detection electrode or detector, the electrical contacts and, if necessary, replace the electrode or the detector. Device Flame detector Minimum detection signal...
Page 45 PART IV: MAINTENANCE TROUBLESHOOTNG GUIDE Gas operation * No electric power supply * Restore power supply * Main switch open * Close switch * Thermostats open * Check set points and thermostat connections * Bad thermostat set point or broken thermostat * Reset or replace the thermostat * No gas pressure * Restore gas pressure...
Page 48 C.I.B. UNIGAS S.p.A. Via L.Galvani, 9 - 35011 Campodarsego (PD) - ITALY Tel. +39 049 9200944 - Fax +39 049 9200945/9201269 web site: www.cibunigas.it - e-mail: cibunigas@cibunigas.it Note: specifications and data subject to change. Errors and omissions excepted.
Page 49 AZL2x - LMV2x/3x Burner Management System Service manual M12916CD Rev. 3.3 01/2017...
Page 50 INDEX MICROPROCESSOR CONTROLLED SYSTEM..........................6 User interface....................................6 Parameters level (heating engineer)............................... 8 Setting menu....................................9 Block 000: Internal Parameter ..............................10 Block 100: General information..............................10 Block 200: Burner control................................13 Block 400: Setting air/fuel ratio curves............................25 Block 500: Air/fuel ratio control ..............................26 Block 600: Actuators ..................................
Page 51 DANGERS, WARNINGS AND NOTES OF CAUTION THIS MANUAL IS SUPPLIED AS AN INTEGRAL AND ESSENTIAL PART OF THE PRODUCT AND MUST BE DELIVERED TO THE USER. INFORMATION INCLUDED IN THIS SECTION ARE DEDICATED BOTH TO THE USER AND TO PERSONNEL FOLLOWING PRO- DUCT INSTALLATION AND MAINTENANCE.
Page 52 DIRECTIVES AND STANDARDS do not leave the equipment exposed to weather (rain, sun, etc.) unless expressly required to do so; Gas burners European directives: do not allow children or inexperienced persons to use equipment; - Directive 2009/142/EC - Gas Appliances; The unit input cable shall not be replaced by the user.
Page 53 -EN 55014-1Electromagnetic compatibility - Requirements for household appliances, electric tools and similar apparatus. -UNI EN 676 (Gas Burners; -CEI EN 60335-1(Household and similar electrical appliances - Safety. Part 1: General requirements; - EN 50165 Electrical equipment of non-electric appliances for household and similar purposes.
Page 54 MICROPROCESSOR CONTROLLED SYSTEM The control system is made of the Siemens LMV central unit that performs all the burner control functions and of the Siemens AZL local programming unit that interfaces the system with the user. Keys Burner AZL2.. Air actuator Fuel actuator LMV2..
Page 55 The keys functions are the following: Key F Used to adjust the “fuel” actuator position (Fuel): : While pressing the F key, the “fuel” actuator position can be changed by means of the + and - keys. Key A Used to adjust the “air” actuator position (Air): While pressing the A key, the “air”...
Page 56 Parameters level (heating engineer)
Page 57 Setting menu The seeting menu is divided into different blocks: Bloc. Descrizione Description Password Internal parameters OEM / Service Informazioni generali General OEM / Service / Info Controllo bruciatore Burner control OEM / Service Controllo bruciatore (solo LMV26) Burner control (LMV26 only) OEM / Service Curve rapporto Ratio curves...
Page 58 Block 000: Internal Parameter Param. Descrizione Description Password Password livello assistenza (ingegnere del Password heating engineer (4 characters) calore) Password livello OEM (costruttore del brucia- Password OEM (5 characters) tore) Start backup / restore via AZL2.../ PC sof- tware (set parameter to 1) Index 0: Create backup Index 1: Execute restore Error dia- Start backup/restore via AZL2x/PC gnostics via negative values...
Page 59 Frequenza di rete Mains frequency 0 = 50 Hz 0 = 50 Hz Service / Info 1 = 60 Hz 1 = 60 Hz Luminosità display Display brightness Service / Info Tempo dopo il quale, se non viene premuto nessun tast il software esce dalla modalita Timeout for menu operation (default value = programmazione (valore fabbrica = 60min - 60min - range: 10 - 120 min)
Page 60 Numero totale di partenze (non azzerabile) Total number of startups Service / Info Volume combustibile (azzerabile da OEM) Fuel volume (resettable by OEM) Service / Info Fuel 1(secondo combustibile)Ore di eserci- Fuel 1: Operation hours resettable Service / Info zio (azzerabile da Service) Fuel 1 (secondo combustibile) Numero di Fuel 1: Number of startups resettable Service / Info...
Page 61 Block 200: Burner control Param. Descrizione Description Password Modalità funzionamento bruciatore ( rampa Burner operating mode (fuel train, modula- combustibile, modulante / multistadio, servo- ting / multistage, actuators, etc..) comandi, ecc.) __= non definito (cancellazione curve) __= undefined (delete curves) 1 = accensione diretta a gas (G mod) 1 = gas direct ignition (G mod) 2 = accensione tramite pilota gas con attacco...
Page 62 15 = gas rampa Gp1 modulante pneumatico 15 = Gp1 mod pneu without actuator senza servomotori (Gp1 mod pneu) 16 = Gp2 mod pneu without actuator 16 = gas rampa Gp2 modulante pneumatico 17 = Lo 2-stage without actuator senza servomotori (Gp2 mod pneu) 18 = Lo 3-stage without actuator 17 = olio LO 2 stadi senza servomotori 19 = G mod gas actuator only...
Page 63 Gas: sonda rilevazione fiamma attivo (valore Gas: active detector flame evaluation (default fabbrica = 1) value = 1) OEM / Service 0 = QRB../QRC.. 1 = ION / QRA.. Gas: Preventilazione (valore fabbrica = 1) Gas: Pre-purging (default value = 1) 1 = attivo 1 = active 0 = non attivo...
Page 64 Gas: Pressostato gas di minima (default = 1) Gas: Pressure switch-min input 0 = inattivo 0 = inactive 1 = pressostato gas di minima (a monte val- 1 = pressure switch-min (upstream of fuel vola V1) valve 1 (V1)) 2 = controllo perditavalvole via pressostato 2 = valve proving via pressure switch-min OEM / Service (montato tra le valvole V1 e V2)
Page 65 Gas: tempo pressione atmosferica controllo Gas: proving test time atmospheric pres- tenuta (valore fabbrica = 10s - range impo- sure (default value = 10s - range:0.2s - 60s) stazione:0.2s - 60s) Gas: tempo riempimento controllo tenuta Gas: proving test filling time (default value = (valore fabbrica = 3s - range imposta- 3s - range:0.2s - 10s) zione:0.2s - 10s)
Page 66 Olio: Intervallo 1 (valore fabbrica = 2s - Oil: Interval 1 (default value = 2s - OEM / Service range impostazione:0.2s - 60min) range:0.2s - 60min) Olio: tempo di sicurezza 2 (TSA2) (valore Oil: safety time 2 (TSA2) (default value = 3s fabbrica = 3s - range impostazione:0.2 - 10s) - range:0.2 - 10s) Olio: Intervallo 2 (valore fabbrica = 2s -...
Page 67 Block 300: Burner control (only with LMV26) Param. Descrizione Description Password Combustibile 1 : Modalità funzionamento bru- Fuel 1 : Burner operating mode (fuel train, ciatore ( rampa combustibile, modulante / modulating / multistage, actuators, etc..) multistadio, servocomandi, ecc.) __= non definito (cancellazione curve) __= undefined (delete curves) 1 = accensione diretta a gas (G mod) 1 = gas direct ignition (G mod)
Page 68 11 = olio 2 stadi con accensione tramite pilota 11 = LoGp 2-stage (LOGp 2-stage) 12 = Lo mod 2 fuel valves 12 = olio modulante con 2 valvole combusti- 13 = LoGp mod 2 fuel valves bile (LOmod 2 valvole) 14 = G mod pneu without actuator 13 = olio modulante con 2 valvole combusti- 15 = Gp1 mod pneu without actuator...
Page 69 Combustibile 1 - Gas: tempo di preaccen- Fuel 1 - Gas: Preignition time (default value = sione (valore fabbrica = 2s - range imposta- 2s - range: 0.2s - 60min) OEM / Service zione:0.2s - 60min) Combustibile 1 - Gas: tempo di sicurezza 1 Fuel 1 - Gas: Safety time 1 (TSA1) (default (TSA1) (valore fabbrica = 3s - range impo- value = 3s - range: 0.2 - 10s)
Page 70 Limite ripetizioni perdita di fiamma (valore Repetition limit loss of flame (default value= 2 fabbrica = 2 - range impostazione:1 - 2) - range:1 - 2) Fuel 1 - Gas: execution proving test (default Combustibile 1 - Gas: esecuzione controllo value= 2) tenuta (valore fabbrica = 2) 0 = no controllo tenuta...
Page 71 Fuel 1 - Oil: prepurging (default value = 1) Combustibile 1 - Olio: preventilazione (valore fabbrica = 1) 0 = deactivated 1 = attivo 1 = activated 0 = non attivo 0 = deactivated OEM / Service In ambito civile la norma EN267 rende obbli- WARNING: in the civil field, the prepurge is gatoria la preventilazione.
Page 72 Limite ripetizioni perdita di fiamma (valore Repetition limit value loss of flame (default fabbrica = 2 - range impostazione:1 - 2) value = 2 - range:1 - 2) Fuel 1 - Oil: time oil ignition (default value = Combustibile 1 - Olio: tempo iniezione olio (valore fabbr.
Page 73 Block 400: Setting air/fuel ratio curves Param. Descrizione Description Password Curve controllo servocomando combustibile Ratio control curve fuel actuator (F): it acces- (F): si accede alla lista dei punti da impostare ses to the parameter list of the points to be set OEM / Service (da P0 a P9) - consultare paragrafo “Imposta- (P0 to P9) - see paragrapf “Setting the curves”...
Page 74 Block 500: Air/fuel ratio control Param. Descrizione Description Password No-flame position fuel actuator Posizione servocomando combustibile in assenza di fiamma (no-flame) Indice 0 = posizione di sosta = 0° Index 0 = no-load position = 0° OEM / Service Indice 1 = posizione preventilazione = 0° Index 1 = prepurge position = 0°...
Page 75 Activation of VSD / PWM fan (PWM = Pulse- Width Modulation) Activation of VSD / PWM fan OEM / Service 0=deactived 1=actived (PWM = Pulse-Width Modulation) Parameter 544 Modulation Modulation Modulation Modulation Actuator Actuating speed param- Max. delta between the curve points eter 613 OEM / Service Actuator...
Page 76 Block 600: Actuators Param. Descrizione Description Password Impostazione punto di riferimento Selection of reference point Indice 0 = combustibile Index 0 = fuel Indice 1 = aria Index 1 = air 0 = chiuso (<0°) 0 = closed (<0°) 1 = aperto (>90°) 1 = open (>90°) Direzione rotazione del servocomando Actuator’s direction of rotation...
Page 77 Tipo di riferimento dei servocomandi index 0 = fuel (default = 0 (riferimento stan- dard) Type of referencing index 1 = air (default = 0 (riferimento stan- Index 0 = fuel dard) Index 1 = air 0 = standard 0 = standard 1 = fermo entro il raggio utile 1 = stop within usable range 2 = fermi interni (SQN1...)
Page 78 Configurazione uscita analogica % di carico Configuration of analog output (default value (valore fabbrica = 0) = 0) 0 = DC 0..10 V 0 = DC 0..10 V OEM / Service 1 = DC 2..10 V 1 = DC 2..10 V 2 = DC 0/2..10 V 2 = DC 0/2..10 V ATTENTION: as for SQM3x actuators, set the direction according to the acutator function.
Page 79 Block 700: Error history Param. Descrizione Description Password Storico errori: 701 - 725.01.codice Error history: 701 - 725.01.code Service / Info Storico errori: 701 - 725.02.codice diagnostico Error history: 701 - 725.02.diagnostic code ° Service / Info Storico errori: 701 - 725.03.classe errore Error history: 701 - 725.03.error class °...
Page 80 Block 900: Process data Param. Descrizione Description Password Potenza attuale (valore fabbrica = 0% - range Current output (default value = 0% - range = impostazione = 0-100%) 0-100%) Service / Info Indice 0 = combustibile Index 0 = fuel Indice 1 = aria Index 1 = air Posizione incrementale servocomandi (valore...
Page 81 Actuators references An incremental transducer is used to ensure position feedback. Referencing of the actuators must be performed after power-on. In addition, at the end of each shutdown in phase 10, the actuators are referenced to ensure that individual stepping errors, which could lead to shutdown, do not accumulate.
Page 82 COMMISSIONING THE BURNER The LMV2x complete programming must be performed on units that has never been set before or reset units (e.g. spare parts). The programming procedure is performed by setting the following main parameters: if LMV.. is a spare part, insert burner ID (parameter 113) at least 4 digit. type of fuel train (parameter “201”) air/fuel ratio curvepoints (Block “400”) maximum load percentage (parameter “546”)
Page 83 the types of fuel trains are the following: Param. Descrizione Description Password Modalità funzionamento bruciatore ( rampa Burner operating mode (fuel train, mod / multi- comb., mod. / multistadio, servocom., ecc.) stage, actuators, etc.) __= non definito (cancellazione curve)___= __= undefined (delete curves) 1 = accensione diretta a gas (G mod) 1 = gas direct ignition(G mod) 2 = accensione tramite pilota gas con attacco...
Page 84 Lo 3-stage In the example the Gmod gas train has been set (Configuration “1”). Choose the fuel train by pressing ENTER, then press “+” / “-”. Press ENTER to confirm: number “1” will appear on the right side of the display.
Page 85 CAUTION: at the first burner adjustment, it is recommended to set the maximum output P9 at the same value (or little higher) of the ignition point, in order to safely reach point P9 next (see next paragraph). By pressing “+” the display will show: The burner is ready to startup.
Page 86: Warm Setting
Warm setting Once pressed button “+” and the chain thermostats open (X5-03 terminals), the LMV.. show Ph12.Then close the chain termostat and the unit performs the prepurge cycle (see “Phases List”) and stops at the ignition point P0 without ignition anyway. By pressing “+”, the burners lights abd the air/fuel ratio can be properly set in presence of flame.
Page 87: Cold Setting
P5, keep pressing “-” unitl “Calc” is displayed. The curve will be processed again downwards point P1. Fuel deviation between two following points: 25°max. 12 press “-” to go through the lower points and check the combustion values, if necessary change the points as described above. 13 By pressing ESC, at the end of the points adjusments, the parameter “546”...
Page 88 BURNER STARTUP WITH LMV2x ALREADY PROGRAMMED Once the LMV turns on, the AZL display will show The burners is basically factory set. The air/fuel ratio curve is set with the maximum output point P9 a little higher or equal to P0. To adjust the burner on the plant site, adjust the maximum output point to the flow rate values really requested.
Page 89 Set the air/fuel ratio curvepoints as described on chapter “Programming the LMV2x” Note: the other phases are Ph60 = operation (OP= in modulation) Ph62 = travelling to shutdown Ph70 = off but in prepurge after the burntime Ph72 = travelling to postpurging Ph74 = postpurge (countdown is displayed) Press ESC the parameter “546”...
Page 90 Reset / manual lockout The system can be manually locked by simultaneously pressing the ENTER (InFo) button and any other button on the AZL2..This function allows the user to stop the system from the operating level should an emergency occur. When making a reset, the following actions are carried out: Alarm relay and the fault display are off ...
Page 91 Entering the Parameter levels By means of a proper use of the keys, it is possible to enter the various level parameters, as shown in the following flow chart: The burner and consequently the LMV2x.. are factory set; the air and fuel curves as set as well.
Page 92 Info level To enter the Info level, proceed as follows: in any menu position, press keys + and - at the same time, then the program will start again: the display will show OFF. , until the display will show InFo, Press the enter (InFo) key then il will show the first code (167) flashing, on the right side it will show the data entered.
Page 93 10 Press InFo for more than three seconds or for more than three seconds orto return to the normal display. If a message like the one below is shown during operation, it means that the burner is locked out and the Errore code is shown (in the example “error code:4”); this message is alternating with another message Diagnostic code (in the example “diagnostic code:3”).
Page 94 Service level To enter the Service mode, press InFo until the display will show: The service level shows all the information about flame intensity, actuators position, number and lock codes: Parameter Description Flame intensity % output, if set = automatic operation Actuators position, 00=combustibile;...
Page 95 PHASES LIST Fase /Phase Funzione Function Ph00 Fase blocco Lockout phase Ph01 Fase di sicurezza Safety phase Ph10 t10 = tempo raggiungimento posizione riposo t10 = home run Ph12 Pausa Standby (stationary) t22 = tempo di salita ventilatore (motore ventilatore t22 = fan ramp up time (fan motor = ON, safety Ph22 = ON, valvola intercettazione di sicurezza = ON)
Page 96 BACKUP PARAMETER WITH AZL2x On the AZL2x you can save the configuration to download on another appliance LMV. To do this: access up, press F and A at the same time enter the password following the procedure on chapter “Programming LMV2x”. Press ENTER until the display will show: with the button go to the group 000 of the parameters and press...
Page 97 RESTORE PARAMETER FROM AZL2x TO LMV.. To copy the previously saved configuration on AZL2x proceed as follows: access up, press F and A at the same time enter the password following the procedure on chapter “Programming LMV2x”. Press ENTER until the display will show: To copy the configuration from AZL2x to LMV.
Page 98 ERROR CODE TABLE...
Page 113 WIRING DIAGRAM Wiring connection for LMV20 Electrical supply Burner flange Fanmotor input Safety loop Lokout signal Continuous fan operator Valve External valveSV gnition transformer Valve Operation sgnal Reset Reserve Common Increase output Pressure switch leakage test Decrease input gasPGCP ON/OFF thermosta Minimum gas pressure switch Air pressure switch LUFT...
Page 114 Wiring variants for LMV27 ConnectorX75 2 - Fuel meter input 1 - Supply fuel meter ConnectorX5-02 ConnectionsPmax...
Page 115 Wiring variants for LMV26 ConnectorX08-04 / X09-04 2 - Fuel 0 1 - Fuel1 ConnectorX75 2 - Fuel meter input 1 - Supply fuel meter ConnectorX64 5 -Power supply speed sensor 4 -Speed sensor input 3 - PWM (Pulse Width Modulation) speed output 2 - GND (signal reference) 1 -Controller input (4÷20mA) ConnectorX74...
Page 116 Wiring variants for LMV37 ConnectorX75 2 - Fuel meter input 1 - Supply fuel meter ConnectorX5-02 Connections Pmax ConnectorX64 5 -Power supply speed sensor 4 -Speed sensor input 3 - PWM (Pulse Width Modulation) speed output 2 - GND (signal reference) 1 -Controller input (4÷20mA) ConnectorX74 5 -Supply...
Page 120 C.I.B. UNIGAS S.p.A. Via L.Galvani, 9 - 35011 Campodarsego (PD) - ITALY Tel. +39 049 9200944 - Fax +39 049 9200945/9201269 web site: www.cibunigas.it - e-mail: cibunigas@cibunigas.it Note: Specifications and and data subject to change. Errors and omissions excepted.
Page 121 CIB UNIGAS 600V CONTROLLER USER’S MANUAL COD. M12925CA Rel 1.2 08/2014 SOFTWARE VERSION 1.0x code 80379 / Edition 01 - 06/2012 1 • INSTALLATION 2 • TECHNICAL SPECIFICATIONS Display 2x4 digit green, high display 10 and 7mm Keys 4 of mechanical type (Man/Aut, INC, DEC, F) •...
Page 122 3 • DESCRIPTION OF FACEPLATE Function indicators Indication of output states Indicates modes of operation OUT 1 (AL1); OUT 2 (OPEN); OUT 3 (CLOSED) MAN/AUTO = OFF (automatic control) ON (manual control) PV Display: Indication of process variable Error Indication: LO, HI, Sbr, Err PRE-HEATING = ON (running) LO= the value of process variable is <...
Page 123: Programming And Configuration
5 • “EASY” PROGRAMMING and CONFIGURATION S4 Jumper THE EASY CONFIGURATION (Pro=0...12) IS SUITABLE FOR (CPU) VERSIONS WITH AL1/OPEN/CLOSED LEVEL 1 MENU P.V. / S.V. Process variable P.V. / S.V. (PV display) Work Setpoint (SV display) or control output value with controller in manual Password Local Setpoint...
Page 124 • InFo Display Information display Software version 0 No Error Self diagnostic 1 Lo error code 2 Hi 3 ERR 4 SBR OUTPUT 2 OUTPUT 3 SERIAL COMMUNICATION 0 = None 0 = None 0 = None +8 error OUT2 card recognition 1 = Relay 1 = Relay +16 error OUT3 card recognition...
Page 125 • InP Input settings S, R range 0...1750°C; error < 0.2% f.s. (t > 300°C) / for other sp. r 0 default (remote setpoint present) Def. remote setpoint range; error < 0.5% f.s. error < 0.2% f.s. (t > -150°C) range 44...1800°C;...
Page 126 • Out Output settings Select a1. r reference signal for alarm1 AL.1.r AL.x.r Variable to be compared PV (process variable) AL.1.t AL.x.t Direct (high limit) Absolute or Normal 2/3 for a1. t Inverse (low limit) relative to Symmetrical alarm 1 active setpoint (window) direct...
Page 127 • Prot Protection code Prot Display Modification SP, Hy.P, Hy.n, AL.2, AL.3, PoS, OuP, INF SP, Hy.P , Hy.n, AL.2, AL.3, PoS SP, Hy.P, Hy.n, AL.2, AL.3, PoS, OuP, INF SP, OuP, INF + 4 to disable InP, Out + 8 to disable CFG + 16 to disable SW “power-up - power down”...
Page 128 ld. 1 Function of LEDs Val. Function none MAN/AUTO controller ld. 2 HOLD Selftuning enabled Autotuning enabled ld. 3 Error present Softstart running Set point gradient running Pre-heating running + 16 LED flashes if active • Lin Custom linearization for main input Step 0 beginning Display limits s.
Page 129 7 • CONSENT FOR BURNER AL1 Obtain burner consent by configuring alarm 1 as inverse deviation with positive hysteresis Hy.P and negative hysteresis Hy.n 8 • PRE-HEATING FUNCTION Enable the pre-heating function by setting parameters GS.0, Ht.0, GS.1 other than zero. It consists of three phases that are activated sequentially at firing: - Ramp 0 phase Enabled by setting GS.0 >...
Page 130 9 • ADJUSTMENT WITH MOTORIZED VALVE In an adjustment process the adjustment valve has the function of varying fuel delivery (frequently corresponding to the thermal energy introduced into the process) in relation to the signal coming from the controller. For this purpose it is provided with an actuator able to modify its opening value, overcoming the resistances produced by the fluid passing inside it.
Page 131: Control Actions
Valve control modes With the controller in manual, the setting of parameter At.y ≥ 8 allows direct control of the valve open and close commands through the keyboard Increments and Decrements on the front seats. V0 - for floating valve without potentiometer Model V0 have similar behaviour: every manoeuvre request greater than the minimum impulse t.Lo is sent to the actuator by means of the OPEN/CLOSE relays;...
Page 132: Manual Tuning
11 • MANUAL TUNING A) Enter the setpoint at its working value. B) Set the proportional band at 0.1% (with on-off type setting). C) Switch to automatic and observe the behavior of the variable. It will be similar to that in the figure: Process D) The PID parameters are calculated s follows: Proportional band Variable...
Page 133 15 • ACCESSORIES • Interface for instrument configuration Kit for PC via the USB port (Windows environment) for GEFRAN instruments configuration: KIT PC USB / RS485 o TTL Lets you read or write all of the parameters • A single software for all models •...
Page 135 21/06/2012 rev. 0 Set-up for 600V RRR0-1-T73 regulator Set up for temperature probe Pt100 (ex Siemens QAE2120 130°C max.) The regulator comes out of the factory preset with the corresponding values of the Siemens RWF40.000 and RWF50.2x Verify wiring of the sensor Regulation of the set-point = 80 It can be modified by using arrows "up"...
Page 136: Manual Operation
A1.r … A1.t 3 (operating mode AL1 =inverse-relative-normal) … rL.1 2 (AL1) rL.2 18 (open) rL.3 19 (close) A.ty 9 (type of servocontrol command) Ac.t 12 (servocontrol running time: SQN72.4…/STA12..=12; SQM40.265=30) t_Lo t_Hi t.on t.oF dE.b 0,1 (dead zone in % of end scale) 99 then push and keep pushed F until visualization of Hrd …...
Page 137 Set up for temperature probe Pt100 for high temperature (350°C max.) Verify wiring of the sensor Regulation of the set-point = 80 It can be modified by using arrows "up" and "down". By pushing F you go to parameters: Hy.P 10 (hysteresis positive for output 1 terminals 21-22 (ex Q13-Q14) Hy.n -5 (hysteresis negative for output 1 terminals 21-22 (ex Q13-Q14)
Page 138 A1.r … A1.t 3 (mode AL1 =inverse-relative-normal) … rL.1 2 (AL1) rL.2 18 (open) rL.3 19 (close) A.ty 9 (type of servocontrol command) Ac.t 12 (servocontrol running time: SQN72.4…/STA12..=12; SQM40.265=30) t_Lo t_Hi t.on t.oF dE.b 0,1 (dead zone in % of end scale) 99 then push and keep pushed F until visualization of Hrd …...
Page 139 Set up for pressure transmitter 2 wires signal 4÷20mA With pressure transmitters first we need to enable their power supply: remove the part as shown below, then, on the CPU unit, move the bridge from Pt100 to +Vt IN/OUT cards Signal selection on terminal 3 Verify wiring of the sensor...
Page 140 …. 44 (4÷20mA) … dP_S 2 (decimals num.) Transmitter 1,6bar 3bar 10bar 16bar 25bar 40bar Lo.S 0,00 0,00 0,00 0,00 0,00 0,00 min. sensor scale Hi.S 1,60 3,00 10,00 16,00 25,00 40,00 max sensor scale offset of input correction Lo.L 0,00 0,00 0,00...
Page 141 Set -up for thermocouples type Verify wiring of the sensor Regulation of the set-point = 80 It can be modified by using arrows "up" and "down". By pushing F you go to parameters: Hy.P 10 (hysteresis positive for output 1 terminals 21-22 (ex Q13-Q14) Hy.n -5 (hysteresis negative for output 1 terminals 21-22 (ex Q13-Q14) Keep pushing F until you see PASS, release F and through the arrows set 99, push F and visualize Pro...
Page 142 A1.r … A1.t 3 (mode AL1 =inverse-relative-normal) … rL.1 2 (AL1) rL.2 18 (open) rL.3 19 (close) A.ty 9 (type of servocontrol command) Ac.t 12 (servocontrol running time: SQN72.4…/STA12..=12; SQM40.265=30) t_Lo t_Hi t.on t.oF dE.b 0,1 (dead zone in % of end scale) 99 then push and keep pushed F until visualization of Hrd …...
Page 145 MANUAL FOR OPERATION AND CALIBRATION MODULATOR SIEMENS RWF 40…. M12905CH Rev. 07 11/09...
Page 146: Instrument Mounting
INSTRUMENT MOUNTING Mount the instrument using the relevant mounts as illustrated in the figure. To wire the instrument and sensors, follow the instructions given on the burner's wiring diagrams. INSTRUMENT FRONTAL PANEL Current value or value of parameter (red) Setpoint or name of parameter (green) Manual operation...
Page 147: Instrument Settings
INSTRUMENT SETTINGS The instrument comes with a number of factory settings that are good for 90% of cases. However, you can set or edit parame- ters proceeding as follows 1. Setting or editing of setpoint value With the burner switched off (thermostat/pressure switch series contacts open, i.e. terminals 3-4 open), press the PGM key, holding it down for less than 2 sec..
Page 148 SCL2:lower limit for analogue input 2 (same as SCL but for input 2 - factory setting 0); SCH2:upper limit for analogue input 2 (same as SCH but for input 2 - factory setting 100); SPL: lower setpoint limit (same as SCL but for setpoint - factory setting 0); SPH: upper setpoint limit (same as SCH but for setpoint - factory setting 100);...
Page 149 TABLE 1 - "PID" PARAMETERS AND RELEVANT FACTORY SETTINGS Parameter Display Values range Factory setting Remarks Limit value for auxiliary from -1999 to 9999 Do not alter contact (*) digit Auxiliary contact switching HYST from 0 to 999.9 digit Do not alter differential (*) from 0.1 to 9999 Proportional band (*)
Page 150 TABLE 2 - INPUTS CONFIGURATION C111 Red display Analog input 1 1^ digit 2^ digit 3^ digit 4^ digit Pt100 3 wires Pt100 22 wires Ni100 3 wires Ni100 22 wires Pt1000 3 wires Pt 1000 22 wires Ni1000 3 wires DIN 43760 Ni1000 22 wires DIN 43760 Ni1000 3 wires Siemens Ni1000 22 wires Siemens...
Page 151 TABLE 3 - CONFIGURATION C112 Red display 1^ digit 2^ digit 3^ digit 4^ digit Auxiliary limit switch K6 none lk1 function for input 1 lk2 function for input 1 lk3 function for input 1 lk4 function for input 1 lk5 function for input 1 lk6 function for input1 lk7 function for input 1...
Page 152 TABLE 4 - CONFIGURATION C113 Red display 1^ digit 2^ digit 3^ digit 4^ digit Instrument addresses (for RWF 40.003 only address 0 address 1 address... address 99 Unit of measurement and decimal place °C without decimal °C and 1 decimal °F without decimal °F and 1 decimal Activation of “K6”...
Page 153 TABLE 5 - SUMMARY OF STANDARD PARAMETER SETTINGS PARAMETERS TO BE EDITED SENSORS/PROBES C111 C113 HYS1 (*) HYS3 (*) Pb. 1 SP1 (*) Siemens QAE2120.010 9030 0110 80°C Siemens QAM2120.040 9030 0110 -2,5 40°C Pt1000 (130°C max.) 5030 0110 80°C Pt1000 (350°C max.) 5030 0110...
Page 154 Probe electric connection : With 7 pins connector version With terminals version TRASDUCER PASSIVE TRASDUCER PASSIVE CONNECTION ONLY CONNECTION ONLY TRASDUCER PASSIVE TRASDUCER PASSIVE CONNECTION ONLY CONNECTION ONLY...
Page 155 With external setpoint C111 configuration code = X1X1 With setpoint modified by independent management system C111 configuration code = X9XX SCH2= 0.5x (SPH - SPL) SCL2= -0.5 x (SPH - SPL) Example: SPH= max. 130° C SPL= min. 30° C SCH2= 0.5 x (130 - 30) = 50 SCL2= -0.5 x (130 - 30) = -50...
Page 156 APPENDIX: PROBES CONNECTION To assure the utmost comfort, the control system needs reliable information, which can be obtained provided the sensors have been installed correctly. Sensors measure and transmit all variations encountered at their location. Measurement is taken based on design features (time constant) and according to specific operating conditions. With wiring run in raceways, the sheath (or pipe) containing the wires must be plugged at the sensor's terminal board so that currents of air cannot affect the sensor's measurements Ambient probes (or ambient thermostats)
Page 157 Duct or pipe sensors Installing pressure sensors Installing temperature sensors A - installation on ducts carrying fluids at max. temperature For measuring outlet air: 80°C B - installation on ducts at temperature over 80°C and for refri- after delivery fan or gerants after coil to be controlled, at a distance of at least 0,5 m C - installation on ducts at high temperatures:...
Page 158 Immersion or strap-on sensors Immersion probes mounting Sensors must be installed on the stretch of pipe in which fluid circulates all the time. The rigid stem (sensing element doing the measuring) must be inserted by at least 75mm and must face the direction of flow.
Page 159 Duct pressure switches and sensors Installing differential pressure probes for air Basic principles Measuring static pressure (i.e. pressure exerted by air on pipe walls) A - Control a filter (clogging) Measuring dinamic pressure B - Control a fan (upstream/downstream) kg/m3, specific weight of air m/s, air speed 9.81 m/s2, gravity acceleration mm C.A., dynamic pressure...
Page 160 Spare parts Description Code Modulator RWF40.000 2570112 Adapting frame Siemens ARG40 from RWF32.. to RWF40.. 2570113 Temperature probe Siemens QAE2120.010A (30÷130°C) 2560101 Temperature probe Siemens QAM2120.040 (-15÷+50°C) 2560135 Thermoresistor Pt1000 ø = 6mm L = 100mm (30÷130°C) 2560188 Thermoresistor Pt1000 ø = 10mm L = 200mm (0÷350°C) 2560103 Pressure probe Siemens QBE2..
Page 161 RWF50.2x & RWF50.3x User manual M12922CB Rel.1.0 07/2012...
Page 162: Device Installation
DEVICE INSTALLATION Install the device using the relevant tools as shown in the figure. To wire the device and sensors, follow the instructions on the burner wiring diagram.
Page 163: Front Panel
FRONT PANEL NAVIGATION MENU Parameter level Basic display User Level - Opr SP1 or SP2 (editable) dSP readable and editable through bin1 = 2 InP1 or y (only display) Parameter Level - PArA HYS1 , HYS2 , HYS3 Pb1, dt, rt, db, tt Next parameter Main navigation...
Page 164 RWF5 is preset good for 90% of applications. However, you can set or edit parameters as follow: Set-point: set or modification: When the burner is in stand-by, (safety loop open, that is terminals 3-4/T1-T2 on the 7 pole plug open) push the Enter button: on the lower display (green) Opr appears;...
Page 165 Setting the kind of sensor to be connected to the device:  push the Enter button: on the lower display (green) Opr appears. Using the up and down arrows find ConF. Push Enter to confirm.  Now on the green display the group InP appears. Push Enter and InP1 is displaied. Enter to confirm. ...
Page 166 ConF > Cntr Parameter Value Description CtYP 1 = 3-position controller (open-stop-close only RWF50.2) controller type 2 = continuative action controller (only RWF50.3) CACt 1 = heating controller control action 0 = cooling controller least value of the set-point limitation prevents entry of values outside the defined set-point range -1999..0..+9999 range...
Page 167 ConF > OutP (parameter under group only for RWF50.3) Parameter Value Description FnCt 1 = analog input 1 doubling with possibility to convert tipo di controllo (depending on par SiGn) 4 = modulation controller SiGn physical output signal (terminals A+, A-) type of output signal 0 = 0÷20mA 1 = 4÷20mA...
Page 168 Manual control :  in order to manual change the burner load, while firing keep pushing the ESC button for more than 5 s; on the lower green display Hand appears.  using the UP and DOWN arrows, the load varies. ...
Page 169: Electric Connection
Electric connection : With 7 pins connector version With terminals version Matches terminals between RWF50.2 and RWF40.0x0...
Page 170 Parameters summarising for RWF50.2x: Conf Conf Navigation menù Inp1 Cntr diSP PArA Types of probe SEn1 OFF1 SCL1 SCH1 Unit dECP Pb. 1 dt HYS1 (*) HYS3 (*) SP1 (*) Siemens QAE2120… needless needless 80 350 (#) 80 °C Siemens QAM2120.. needless needless 80 350 (#)
Page 171 APPENDIX: PROBES CONNECTION To assure the utmost comfort, the control system needs reliable information, which can be obtained provided the sensors have been installed correctly. Sensors measure and transmit all variations encountered at their location. Measurement is taken based on design features (time constant) and according to specific operating conditions.With wiring run in raceways, the sheath (or pipe) containing the wires must be plugged at the sensor's terminal board so that currents of air cannot affect the sensor's measurements.
Page 172 Duct or pipe sensors Installing pressure sensors A - installation on ducts carrying fluids at max. temperature 80°C Installing temperature sensors For measuring outlet air: B - installation on ducts at temperature over 80°C and for refrigerants  after delivery fan or C - installation on ducts at high temperatures: ...
Page 173 Immersion or strap-on sensors Immersion probes installation Sensors must be installed on the stretch of pipe in which fluid circulates all the time. The rigid stem (sensing element doing the measuring) must be inserted by at least 75mm and must face the direction of flow. Recommended locations: on a bend or on a straight stretch of pipe but tilted by 45°...
Page 174 Duct pressure switches and sensors Installing differential pressure probes for air Basic principles Measuring static pressure(i.e. pressure exerted by air on pipe walls) A - Control a filter (clogging) Measuring dinamic pressure B - Control a fan (upstream/downstream) Kg/m , specific weight of air m/s, air speed 9.81 m/s gravity acceleration...
Page 175: Spare Parts
Spare parts Description Code Modulator RWF50.2 (uscita a 3 punti - apri, fermo, chiudi) 2570148 2570149 Modulator RWF50.3 (uscita continua 0÷20mA, 4÷20mA, 0÷10V) Temperature probe Siemens QAE2120.010A (30÷130°C) 2560101 2560135 Temperature probe Siemens QAM2120.040 (-15÷+50°C) 2560188 Thermoresistor Pt1000 ø6mm L100mm (30÷130°C) Thermoresistor Pt1000 ø10mm L200mm (0÷350°C) 2560103 2560145...
Page 176 Note: Specifications and data subject to change. Errors and omissions excepted.
Page 177 KM3 Modulator USER MANUAL M12927CA Rel.1.0 10/2020...
Page 178 M12927CA MOUNTING...
Page 179 M12927CA DISPLAY Y AND KEY onsent to the burner is rned off OUTP UT LEDs ON (o out1) - Consen nt to the burne ▲ - (o out2) Output i ncrease ▼ - (o out3) Output d decrease ● - (ou ut4) Modulato r is powered o perator Mode...
Page 180: Probe Connection
M12927CA CONNECTIONS DIAGRAM Probe connection: • PT1000/NTC/PTC: between terminal 3 and 2 • PT 100: between terminal 3 and 2 with terminal 1 • Passive pressure probe 0/4-20 mA: between terminal 4 ( + ) e 1 ( - ) Note: out4 must be activated ( IO4F must be setted to ON ) •...
Page 181: Operation Example
M12927CA SETPOINT AND HYSTERESIS CONFIGURATION (SP, AL1, HAL1 parameters) Push the button to enter into the setpoint configuration: SP setpoint value change: increase decrease 2480 Confirm / Next AL1 parameter value change: increase decrease Confirm / Next HAL1 HAL1 parameter value change: increase decrease Confirm / Next Back to the first parameter To return to normal mode, press the key for 3 seconds or wait the 10s timeout...
Page 182 M12927CA LIMITED ACCESS LEVEL Proceed as follows to change some parameters that are not visible in standard user mode: Press the key for Password = 20 3 seconds Access to parameter: Increase the displayed value Decrease the displayed value Confirm and go to next parameter Param Description...
Page 183 M12927CA...
Page 184: Configuration Parameters
M12927CA CONFIGURATION How to access configuration level The configuration parameters are collected in various groups. Every group defines all parameters related with a specific function (e.g.: control, alarms, output functions). Push the button for more than 5 seconds. The upper display will show PASS while the lower display will show 0.
Page 185 M12927CA Safety output value -100... 100 io4.F I/O4 function selection on = Out4 will be ever ON (used as a transmitter power supply) ,out4 = Uscita 4 (Used as digital output 4), dG2c = Digital input 2 for contact closure, dG2U = Digital input 2 driven by 12... 24 diF1 Digital input 1 function oFF = Not used,...
Page 186 M12927CA windows SE.br = Sensor Break LodE = Deviation low alarm (relative) HidE = Deviation high alarm (relative) LHdo = Relative band alarm in alarm out of the band LHdi = Relative band alarm in alarm inside the band Alarm 1 function 0...
Page 187 M12927CA AL3 Group - alarm 3 parameters Param Description Values Liv N° Default AL3t Alarm 3 type nonE = Alarm not used nonE LoAb = Absolute low alarm HiAb = Absolute high alarm LHAo = Windows alarm in alarm outside the windows LHAI = Windows alarm in alarm inside the windows...
Page 188 M12927CA SELF Self tuning enabling no = The instrument does not perform the self- tuning YES = The instrument is performing the self- tuning Proportional band 1... 9999 (E.U.) page 7 Integral time 0 (oFF) ... 9999 (s) page 7 Derivative time 0 (oFF) ...
Page 189 M12927CA AAc = Alarm reset ASi = Alarm acknowledge chSP = Sequential set point selection St.by = Stand by mode. The first press puts the instrument in stand by mode while a second one puts the instrument in Auto mode. Str.t = Timer run/hold/reset P.run = Program run P.rES = Program reset...
Page 190 M12927CA con Group - Consumption parameters Param Description Values N° Default Co.tY Count type oFF = Not used 1 = Instantaneous power (kW) 2 = Power consumption (kW/h) 3 = Energy used during program execution. This measure starts from zero when a program runs end stops at the end of the program.
Page 191: Automatic Mode
M12927CA OPERATIVE MODES When the instrument is powered, it starts immediately to work according to the parameters values loaded in its memory. The instrument behaviour and its performance are governed by the value of the stored parameters. At power ON the instrument can start in one of the following mode depending on its configuration: Automatic Mode In Automatic mode the instrument drives automatically the control output according to the parameter value set and the set point/measured value.
Page 192: Manual Mode
M12927CA Direct set point modification This function allows to modify rapidly the set point value selected by [83] A.SP (selection of the active Set point) or to the set point of the segment group (of the programmer) currently in progress. Push button.
Page 193: List Of Possible Errors
M12927CA ERROR MESSAGES The upper display shows the OVER-RANGE and UNDERRANGE conditions with the following indications: Over-range: Under-range The sensor break will be signalled as an out of range: Note: When an over-range or an under-range is detected, the alarms operate as in presence of the maximum or the minimum measurable value respectively.
Page 194 RWF55.5X & RWF55.6X User manual M12926CA Rel.0.1 10/2015...
Page 195 DEVICE INSTALLATION Fixing system Drilling dimensions:...
Page 196 FRONT PANEL Burner release Controlling element CLOSED/stage 1 Controlling element OPEN/stage 2 Operating mode 2-stage Actual value display (red) and parameter value USB led Comunication via interface Operating mode 2-stage Thermal shock protection Alarm function Decrease value Increase value ESC button Enter button...
Page 197 NAVIGATION MENU User Level - Opr Parameter level SP1 or SP2 (editable) dSP readable and editable through bin1 = 2 InP1 or y (only display) Basic display Parameter level - PArA Pb1, dt, rt, db, tt Heating controllerHYS1 , HYS2 , HYS3 Cooling controller HYS4 , HYS5 , HYS6...
Page 198 PID parameters set and modifications (PArA): Push Enter button, on the green display Opr appears; using the down arrow, scroll until group PArA is reached and push Enter. On the green display Pb1 e appears and on the red one the set parameter. Push is sequence the down or up arrow the menu is scrolled. Push Enter to select and the arrows to choose the desired value.
Page 199 Setting the kind of sensor to be connected to the device: Push the Enter button: on the lower display (green) Opr appears. Using the up and down arrows find ConF. Push Enter to confirm. Now on the green display the group InP appears. Push Enter and InP1 is displaied. Enter to confirm.You are inside InP1; the green display shows Sen1 (sensor type), while the red display shows the chosen sensor code Push Enter to enter the Sen1 parameter, then choose the desired sensor using the arrows.
Page 200 ConF > InP >InP2 Input 2 : this input can be used to specify an external setpoint or carry out setpoint shifting Parameter Value Description no function FnC2 external setpoint (display SPE) setpoint shifting (display dSP) angular positioning feedback SEn2 0 ÷...
Page 201 ConF > Cntr Here, the type of controller, operating action, setpoint limits and presettings for self-optimization are selected Parameter Value Description CtYP 3-position controller (open-stop-close) ontroller type continuative action controller (0 ÷10V 4 ÷ 20mA) heating controller CACt control action cooling controller minimum set-point scale -1999..0..+9999...
Page 202 Alarm functionAF The alarm function can be used to monitor the analog inputs. If the limit value is exceeded, multifunctional relay K6 (terminals 6N and 6P) is activated (depending on the switching characteristic) The alarm function can have different switching functions (lk1 to lk8) and can be set to a deviation from the active setpoint or to a fixed limit value Limit value AL relative to setpoint (x) Fixed limit value AL...
Page 203 ConF > AF Parameter Value Description FnCt Without function type of control monitored input Ik1 = InP1 monitored input Ik2 = InP1 monitored input Ik3 = InP1 monitored input Ik4 = InP1 monitored input Ik5 = InP1 monitored input Ik6 = InP1 monitored input Ik7 =...
Page 204 ConF > binF This setting decides on the use of the binary inputsD1, D2, DG Parameter Value Description without function bin1 binary imput terminals set-point changeover (SP1 / SP2) – D1) set-point shift (Opr > dSP parameter = value of set-point modify) 2 = l input alarm changeover of operating mode...
Page 205 ConF > IntF The controller can be integrated into a data network using an optional RS-485 (terminals R+ and R-) interface or an optional Profibus DP interface(only modelRWF55.6x terminalsC1-C2-C3-C4) Parameter Value Description bdrt 0 = 4800 baud baudrate 1 = 9600 baud 2 = 19200 baud 3 = 38400 baud Address in the data network...
Page 206 Display of software version : The software version is shown by pushing Enter + UP arrow on the upper display Weather-compensated setpoint shifting(climatic regulation): The RWF55 can be configured so that weather-compensated setpoint shifting is activated when an LG-Ni1000 outside sensor or a Pt1000 is connected (see parameter InP3).
Page 207 Modbus interface The tables that follow in this chapter specify the addresses of the readable and writable words that the customer is able to access. The customer may read and/or write the values using SCADA programs, PLCs, or similar. The entries under Access have the following meanings: R/O Read Only, value can only be read R/W Read/Write, value can be read and written The number of characters specified under Data type in the case of character strings includes the final \0.
Page 208 Configuration level Address Access Data type Signal reference Parameter 0x3426 Float SCL1 Start of display input 1 0x3428 Float SCH1 End of display input 1 0x3432 Float SCL2 Start value input 2 0x3434 Float SCH2 End value input 2 0x3486 Float Start of setpoint limitation 0x3488...
Page 209 Dati dell’apparecchio Address Access Data type Signal reference Parameter 0x8000 Char12 Software version 0x8006 Char14 VdN number Stato dell’apparecchio Address Access Data type Signal reference Parameter 0x0200 Word Outputs and states Bit 0 Output 1 Bit 1 Output 3 Bit 2 Output 2 Bit 3 Output 4...
Page 210: Electric Connections
Electric connections : With 7 pins connector version With terminals version Corrispondences bornes entre RWF55.5x y RWF40.0x0Matches terminals betweenRWF55.5x and RWF40.0x0...
Page 211 Parameters summarising for RWF55.xx : ConF ConF Navigation menù Inp1 Cntr diSP PArA Types of probe SEn1 OFF1 Unit dECP Pb. 1 HYS1 (*) HYS3 (*) SP1 (*) ...
Page 212 APPENDIX: PROBES CONNECTION To assure the utmost comfort, the control system needs reliable information, which can be obtained provided the sensors have been installed correctly. Sensors measure and transmit all variations encountered at their location. Measurement is taken based on design features (time constant) and according to specific operating conditions.With wiring run in raceways, the sheath (or pipe) containing the wires must be plugged at the sensor's terminal board so that currents of air cannot affect the sensor's measurements.
Page 213 Duct or pipe sensors Installing pressure sensors Installing temperature sensors A - installation on ducts carrying fluids at max. temperature 80°C For measuring outlet air: B - installation on ducts at temperature over 80°C and for refrigerants "after delivery fan or C - installation on ducts at high temperatures : "after coil to be controlled, at a distance of at least 0,5 m ·"increase length of siphon...
Page 214 Immersion or strap-on sensors Immersion probes installation Sensors must be installed on the stretch of pipe in which fluid circula- tes all the time. The rigid stem (sensing element doing the measuring) must be inser- ted by at least 75mm and must face the direction of flow. Recommended locations: on a bend or on a straight stretch of pipe but tilted by 45°...
Page 215 Duct pressure switches and sensors Installing differential pressure probes for air Basic principles Measuring static pressure(i.e. pressure exerted by air on pipe walls) A - Control a filter (clogging) Measuring dinamic pressure B - Control a fan (upstream/downstream) Legend Kg/m3, specific weight of air m/s, air speed 9.81 m/s2 gravity acceleration mm C.A., dynamic pressure...
Page 217 Note: Specifications and data subject to change. Errors and omissions excepted.

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